2023
DOI: 10.1002/rcm.9675
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A hydrogen isoscape for tracing the migration of herbivorous lepidopterans across the Afro‐Palearctic range

Sana Ghouri,
Megan S. Reich,
Roger Lopez‐Mañas
et al.

Abstract: RationaleMany insect species undertake multigenerational migrations in the Afro‐tropical and Palearctic ranges, and understanding their migratory connectivity remains challenging due to their small size, short life span and large population sizes. Hydrogen isotopes (δ2H) can be used to reconstruct the movement of dispersing or migrating insects, but applying δ2H for provenance requires a robust isotope baseline map (i.e. isoscape) for the Afro‐Palearctic.MethodsWe analyzed the δ2H in the wings (δ2Hwing) of 142… Show more

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Cited by 2 publications
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“…We found similar isotopic signals in each individual, suggesting that these butterflies had the same natal origin (Supplementary Table S4 ). We then compared these isotope signals to existing baseline isotope maps (i.e., isoscapes) 22 26 , identifying possible regions of natal origin within the Afro-Palearctic range (Fig. 4A ).…”
Section: Resultsmentioning
confidence: 99%
See 1 more Smart Citation
“…We found similar isotopic signals in each individual, suggesting that these butterflies had the same natal origin (Supplementary Table S4 ). We then compared these isotope signals to existing baseline isotope maps (i.e., isoscapes) 22 26 , identifying possible regions of natal origin within the Afro-Palearctic range (Fig. 4A ).…”
Section: Resultsmentioning
confidence: 99%
“…The process requires a tissue-specific isotope dataset of known-origin individuals to develop a calibration equation between a precipitation isoscape 24 and the tissue of interest. We compiled a δ 2 H known-origin dataset of 130 monarch butterflies from 31 sites across North America, already assembled in the suborigData object in the assignR package 23 , 97 , 98 , and 142 butterflies from 56 sites across Europe and Africa 26 . When plotted against the global mean-annual precipitation δ 2 H isoscape from the assignR package, we obtained the following calibration equation: wing δ 2 H = 0.66 × precipitation δ 2 H – 49.34 ‰ ( R 2 = 0.55).…”
Section: Methodsmentioning
confidence: 99%